Within the developing pancreas Hepatic Nuclear Factor 6 (HNF6) directly activates the pro-endocrine transcription factor, Ngn3. HNF6 and Ngn3 are each essential for endocrine differentiation and HNF6 is also required for embryonic duct development. Most HNF6−/− animals die as neonates, making it difficult to study later aspects of HNF6 function. Here, we describe, using conditional gene inactivation, that HNF6 has specific functions at different developmental stages in different pancreatic lineages. Loss of HNF6 from Ngn3-expressing cells (HNF6Δendo) resulted in fewer multipotent progenitor cells entering the endocrine lineage, but had no effect on β cell terminal differentiation. Early, pancreas-wide HNF6 inactivation (HNF6Δpanc) resulted in endocrine and ductal defects similar to those described for HNF6 global inactivation. However, all HNF6Δpanc animals survived to adulthood. HNF6Δpanc pancreata displayed increased ductal cell proliferation and metaplasia, as well as characteristics of pancreatitis, including up-regulation of CTGF, MMP7, and p8/Nupr1. Pancreatitis was most likely caused by defects in ductal primary cilia. In addition, expression of Prox1, a known regulator of pancreas development, was decreased in HNF6Δpanc pancreata. These data confirm that HNF6 has both early and late functions in the developing pancreas and is essential for maintenance of Ngn3 expression and proper pancreatic duct morphology.
The allergic early-phase reaction, a hallmark of allergic bronchial asthma, is caused by allergen and immunoglobulin E-dependent mediator release from mast cells. It was previously shown that nerve growth factor (NGF) contributes to acute airway inflammation. This study further investigates the role of NGF in the allergic early-phase reaction using a well-established mouse model of ovalbumin-induced allergic airway inflammation. Treatment of sensitized and aerosol challenged BALB/c mice with blocking anti-NGF antibodies inhibited allergen-induced early-phase reaction and suppressed airway inflammation. Transgenic mice constitutively overexpressing NGF in the airways (Clara-cell secretory protein promoter [CCSP]-NGF-tg) were employed and compared with wild-type animals. In sensitized and challenged CCSP-NGF-tg mice, early-phase reaction, airway inflammation, as well as percental relative increases in serotonin levels were augmented compared with wild-type mice. These effects were paralleled by increased serotonin levels in the airways, whereas immunoglobulin E levels remained unaffected. Furthermore, CCSP-NGF-tg mice developed an increased reactivity of sensory neurons in response to inhaled capsaicin demonstrating NGF-mediated neuronal plasticity. These data provide evidence for the functional role of NGF in the development of allergic early phase responses in the airways and the lung.
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